8.5 KiB
8.5 KiB
Various motor documents
- /home/zamofing_t/Documents/doc-ext/SwissFEL/ESB-MX-Stage
Parker stage
- encoder is incremental encoder
25mm or 50mm travel stage
Stall Current Continuous 0.8
Peak Current Amps RMS 2.4 (->sqrt(2)*2.4=3.39A_peak)
Resistance Ohms 8.8
Inductance mH 2.4
Max.BuxVoltage V 80
Continous Force 4N -> assume 1kg load -> acceleration=a=F/m=4m/s^2
Weight top stage: 250g=2.5N
Mecapion rot stage
http://www.lsmecapion.com/eng/
http://www.lsmecapion.com/eng/contents/sub01/sub02_03.php
http://www.a2v.fr/program/mdm-dc06d.htm
http://www.parkem.ch/medien/produkte/direktantriebstechnik/pdf/MDM_Rundtisch_katalog.pdf
http://www.goto.si/wp-content/uploads/2016/kat/L7%20Series%20catalog.pdf
http://farasys.ir/wp-content/uploads/2015/Direct%20Drive%20Rotary%20Motors.pdf
http://www.inmoco.co.uk/Upload/product/1037_DD_Series_Motors_79.pdf
- encoder is biss 20 bit
- Rated Current 1.46 Arms
- Max Current 4.38 Arms
- 32 pole (16 einraster per rev)
Testing ServoFrq.
!common(PhaseFreq=20000,PhasePerServo=4) -> 25000points, 20um error leads the trajectory in x
!common(PhaseFreq=20000,PhasePerServo=2) -> 25000points, 6.6um error
!common(PhaseFreq=20000,PhasePerServo=1) -> 25000points, 6.1um error ossilates in y, x is quite good
-> the servo loop has to be optimized!
Testing linear,pvt,spline moves
Tested with shapepath.py: THE BEST TRAJECTORY RESULT IST WITH PVT MOTION
Optimize/Test Parameters with Parker Stage
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/cfg
gpasciiCommander --host SAR-CPPM-EXPMX1 -i
!mx-stage()
#1..3$
&1
#1..3j/
load program prg/testPerfGrid.prg
b2r
cd ~/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/src/usrServo
make #will install the user servo loop
watch P3000 (average following error)
tweak servo parameters ->!motor_servo(mot=3,ctrl='ServoCtrl',Kp=20,Kvfb=220,Ki=0.02,Kvff=240,Kaff=1500,MaxInt=1000)
Same for motor 2 -> watcp P2000
Increase load will need an increase of gains to compensate following error
Motor[2].Servo.Kp=20
Motor[2].Servo.Kvfb=1000
Motor[2].Servo.Ki=0.07
Motor[2].Servo.Kvff=1000
Motor[2].Servo.Kaff=4000
Motor[3].Servo.Kp=20
Motor[3].Servo.Kvfb=220
Motor[3].Servo.Ki=0.02
Motor[3].Servo.Kvff=240
Motor[3].Servo.Kaff=1500
./shapepath.py --yx
average error x 0.313575 um, y 0.461707 um, 0.629583 um
./shapepath.py
average error x 0.371877 um, y 0.317152 um, 0.542073 um
Start motion on external signal
open plc 1
Coord[1].DesTimeBase=0 // freezes timebase at boot
while(1)
{
if(PowerBrick[0].GpioData[0].0.1==1)
{
PowerBrick[0].GpioData[0].16.8=255
Coord[1].DesTimeBase=Sys.ServoPeriod
}
else
{
PowerBrick[0].GpioData[0].16.8=7
Coord[1].DesTimeBase=0
}
}
close
enable plc 1
-> run motion program. press gpio 0 to run at 100%
29.9.17 Testing in MX-LAB
Start the powerbrick. ioc is started automatically
zamofing_t@ganymede:~$ ssh x06mx-cons-1
caget SAR-ESB_MX:MOTOR_AX
cd /net/slsfs-crtl/export/sf/common/config/qt/
startDM -macro 'P=SAR-ESB_MX' ESB_MX_exp
press homing button
-> all axes can be moved.
(on thierrys laptop only)
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/python
./shapepath.py
will execute the custom motion. No problems with EPICS
(on other machines)
module is installed in:
ls /net/slsfs-crtl/export/sf/ioc/modules/ESB_MX/zamofing_t/R3.14.12/
PATH=/net/slsfs-crtl/export/sf/controls/bin/:$PATH
source /opt/gfa/python-2.7/2.3.0/bin/activate xblpython > /dev/null 2>&1
cd /net/slsfs-crtl/export/sf/ioc/modules/ESB_MX/zamofing_t/R3.14.12/
./shapepath.py
export EPICS_CA_ADDR_LIST="129.129.109.255" export EPICS_CA_ADDR_LIST="129.129.126.255" caQtDm -macro 'P=SAR-ESB_MX' ESB_MX_exp
HelicalScan
PPMAC=MOTTEST-CPPM-CRM0485
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX
PBInspect --host $PPMAC --cfg PBInspect1.pbi
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/cfg
gpasciiCommander --host $PPMAC sim_8_motors.cfg -i
ssh root@$PPMAC
sendgetsends -1
cpx send 1"SampleMessage\n"
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/python
./helicalscan.py
fwd/inv kinematic stuff
Coord[1].SegMoveTime=.05, will calculate all 0.05 sec the inverse kinematic.
default Coord[1].SegMoveTime=0, calculates inv kin. only at endpoints
&1p ->this will trigger:forward kinematic
cpx pmatch ->this will trigger:forward kinematic
cpx ;linear rel; X0Y0Z0B0 ->this will trigger: inverse
test_coord_trf() (w is in mdeg) -> Output:
input : cx:0.2 cz:0.3 w:5729.58 fy:0.4
fwd_trf: dx:-1.14768 dz:-19.0991 w:5729.58 fy:0.4
inv_trf: cx:0.2 cz:0.3 w:5729.58 fy:0.4
input : dx:0.2 dz:0.3 w:5729.58 fy:0.4
inv_trf: cx:1.54768 cz:19.6991 w:5729.58 fy:0.4
fwd_trf: dx:0.2 dz:0.3 w:5729.58 fy:0.4
#4j=0.2 //cx
#5j=0.3 //cz
#3j=5729.58 //w
#1j=0.4 //fy
&1p
forward kinematic 0.199997 0.300003 5729.58 0.399994
forward result -1.14769 -19.0991 5729.58 0.399994
cpx ;linear abs; X.2Y.4Z.3B5729.58
inverse kinematic 0.2 0.3 5729.58 0.4
inverse result 1.54579 19.7026 5729.58 0.4
input : cx:10 cz:20 w:171887 fy:40
fwd_trf: dx:28.9419 dz:-5.52304 w:171887 fy:40
inv_trf: cx:10 cz:20 w:171887 fy:40
#4j=10 //cx
#5j=20 //cz
#3j=171887 //w
#1j=40 //fy
&1p
forward kinematic 10 20 171887 40
forward result 28.942 -5.52296 171887 40
input : dx:10 dz:20 w:171887 fy:40
inv_trf: cx:-8.94193 cz:45.523 w:171887 fy:40
fwd_trf: dx:10 dz:20 w:171887 fy:40
cpx ;linear abs; X10 Z20 B171887 Y40
inverse kinematic 10 20 171887 40
inverse result -8.94198 45.523 171887 40
Motors final setup 20.12.17
SAR-CPPM-EXPMX1: biss:y timing:y
1: fy
2: fx
3: ry
4: cx
5: cz
6: interfero y
7: interfero x
labels:
MOT_FY EXPMX1.1 MOT_FX EXPMX1.2 MOT_ROT_Y EXPMX1.3 MOT_CX EXPMX1.4 MOT_CZ EXPMX1.5
ENC_FY EXPMX1.1 ENC_FX EXPMX1.2 ENC_ROT_Y EXPMX1.3 ENC_CX EXPMX1.4 ENC_CZ EXPMX1.5
IFR_FY EXPMX1.6 IFR_FX EXPMX1.7
SAR-CPPM-EXPMX2: biss:n timing:n
1: wedge1
2: wedge2
3: wedge3
4: wedge4
5: backlight
SAR-CPPM-EXPMX3: biss:n timing:y
1: girder1
2: girder2
3: girder3
4: girder4
5: girder5
PPMAC=MOTTEST-CPPM-CRM0485
ssh root@$PPMAC
cd /ioc/SAR-CPPM-EXPMX1;iocsh startup.script
sendgetsends -1
ssh x06mx-cons-1
export CAQTDM_DISPLAY_PATH=/net/slsfs-crtl/export/sf/common/config/qt/:/net/slsfs-crtl/export/sf/controls/config/qt/
export EPICS_CA_ADDR_LIST="129.129.126.255"
caqtdm -macro "P=SAR-EXPMX" ESB_MX_exp.ui
TODO 5.1.18
Fwd/inv kinematic is not yet fully correct for PVT moves:
Inverse kinematic need to calculate velocities:
Now a simplified approach with no dependencies is implemented:
vqCX=vDX
vqCZ=vDZ
vqW=vW
vqFY=vY
To see the differences compare:
hs.gen_prog(fnPrg='/tmp/prg.cfg',host='MOTTEST-CPPM-CRM0485',mode=1,cntHor=1,cntVert=5,wRng=(120000,120000),pt2pt_time=100)
hs.gen_prog(fnPrg='/tmp/prg.cfg',host='MOTTEST-CPPM-CRM0485',mode=1,cntHor=1,cntVert=5,wRng=(120000,120000),pt2pt_time=100,smt=0)
hs.gen_prog(fnPrg='/tmp/prg.cfg',host='MOTTEST-CPPM-CRM0485',mode=1,cntHor=1,cntVert=5,wRng=(0,360000))
hs.gen_prog(fnPrg='/tmp/prg.cfg',host='MOTTEST-CPPM-CRM0485',mode=1,cntHor=1,cntVert=5,wRng=(0,360000),smt=0)
When using segmented mode (SegMoveTime>0) the velocities are not needed.
With SegMoveTime=0 these velocities are needed and will result in a non optimal trajectory (with the current buggy calculation).
Testing Helicalscan with real motors 8.1.18
PPMAC=SAR-CPPM-EXPMX1
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/cfg
gpasciiCommander --host $PPMAC -i
$$$***
!common()
!SAR-EXPMX1()
enable plc 1
export EPICS_CA_ADDR_LIST=$PPMAC
caQtDM -macro 'P=SAR-EXPMX' ESB_MX_exp
do homing (or call plc 1)
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/python
./helicalscan.py
Testing Wedge mover
PPMAC=SAR-CPPM-EXPMX2
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX
PBInspect --host $PPMAC --cfg PBInspect2.pbi
cd /home/zamofing_t/Documents/prj/SwissFEL/epics_ioc_modules/ESB_MX/cfg
gpasciiCommander --host $PPMAC -i
$$$***
!common()
!SAR-EXPMX2()
!!! WATCH OUT !!! if the send buffer overruns, the programs will abort in an unexplainable way: send 1"inv_res %f %f %f %f\n",qCX,qCZ,qW,qFY without reading it with sendgetsends -1